Panel and system for load carriage and protection for tactical and non-tactical garments

ABSTRACT

A panel covers a release mechanism of a garment and enables the mounting of pouches and equipment thereon. The panel includes a reinforcement structure, a fabric having mounting slots wound over the reinforcement structure, and a securing mechanism that secures the panel to the release mechanism of the garment. Also, a garment may include a built-in panel that covers a release mechanism and enables mounting of pouches and equipment thereon. The garment includes a main garment portion, a release mechanism extending from an open end of the garment, and the built-in panel incorporated into the main garment portion.

TECHNICAL FIELD

The present disclosure relates generally to the field of load-bearingtactical and non-tactical garments, personally worn armor vests, armorcarriers, plate, carriers, chest rigs, apparel, load bearing gear,and/or vests for carrying items and particularly to an attachment panelthat may be fastened or fixed on a cummerbund of an armor carrier and/ora cummerbund and/or bad bearing gear with the attachment panel made intoit, that increases bad carrying capability and/or armor protection thatdoes not interfere with the emergency and/or standard donning and ordoffing of the garment.

BACKGROUND ART

A defense unit that includes military, anti-terrorist operators andpolice and/or other operators that have to perform high risk missionsneed to be provided armor and load bearing gear equipped with ammunitionand other equipment. Items can include bullets, gun magazines and handgrenades, water containers etc. that are required while in combatagainst the enemy. Equipment may include communication means, navigationmeans, binoculars, portable lighting units and whatever other items thatcan be foreseen to be of assistance in a mission.

Further, apart from ammunition and the equipment, the operators may wantto carry along first aid kits that include medicine and surgical toolsrequired in state of emergency. Thus, some operators may need to carrymultiple items mentioned above for a mission. To carry these items,vests, carriers and chest rigs can be designed with pouches. Pouches arefabricated of cotton canvas and/or nylon fabrics to carry a particularsize or type of military item. Typically, a pouch has an open mouthwhich is covered with a flap using a buckle, hook and loop closuresand/or any other fastening technique. The pouches are mounted on thewaist belt, backpacks and/or garment worn by the operator.

To carry these items, carriers, and chest rigs are also designed withPouch Attachment Ladder System (PALS) grid also referred to as a MOLLE(Modular Lightweight Load-carrying Equipment) grid, is a grid of webbingused to attach smaller equipment onto load-bearing platforms, such asvests and backpacks. PALS/MOLLE can be used to attach items such asholsters, magazine pouches, radio pouches, knife sheathes, and othergear. A wide variety of pouches are commercially available, allowingoperators to customize their kit. PALS/MOLLE consists of webbing sewnonto the load-bearing equipment and corresponding webbing and straps onthe attachment. The straps are interwoven between the webbing on each oftwo pieces and finally snapped and/or secured into place, making for avery secure fit which can be detached with moderate effort. New typesMOLLE/PALS grids are cut out of a single piece fabric rather thanwebbing straps sewn onto fabric can also be used.

The load carrying armor vest and carrier is designed like a strengthtraining weighted vest having multiple pockets for mounting pouches forcarrying various items. The pockets can be provided on the entiresurface of the armor vest and/or in combination with PALS/MOLLE or vestscan be made with only PALS/MOLLE. The modern armor vest can also includea cummerbund that is specifically designed to carry more equipmentand/or body armor. Cummerbunds can also help to distribute weight forthe vest on some vests and provide more space to carry added gear andequipment.

FIG. 1 illustrates a load carrying armor carrier (100), in accordancewith an embodiment of a prior art. As shown in FIG. 1, the load carryingarmor carrier (100) contains multiple slots (102) and/or cuts on theentire surface of the armor carrier (100), including the cummerbund(104), to allow mounting of pouches to any corresponding MOLLE/PALS sloton the surface of the carrier. Although the slots (102) are illustratedas being horizontal in the figures, this is merely for exemplarypurposes. According to an embodiment any mention of slots (102) in thepresent disclosure may be horizontal and/or vertical and/or in aplurality of angles with a plurality of shapes for the slots. The slots(102) are typically provided with cuts in order to maintain the strengthand load bearing capacity such that the cuts do not tear off whilemounting a pouch.

However, a problem that occurs with a typical load carrying armorcarrier (100) is that the cummerbund (104) is fastened with the armorcarrier (100) using a mechanical release mechanism (106) such as abuckling arrangement and/or a Tubes™ release apparatus, embodiments ofwhich are disclosed in detail in a US Patent Publication No.2014/0332572 that is hereby incorporated by reference in the presentapplication. Further, the release mechanism (106) includes a plasticmaterial fastener connected to the cummerbund (104) using a fabric,webbing and/or nylon connector stitched with the cummerbund (104). Therelease mechanism (106), being a plastic part, does not allow mountingof any pouches on it, thereby decreasing the load carrying capacity ofthe armor carrier, particularly at places that can easily be reached bythe user. Another problem is that because both sides of the armorcarrier are covered by the release mechanism, these areas can berendered weak and/or unprotected. However, the release mechanism (106)is to be held on the abdomen area of the body and, thus should not beleft unprotected.

In light of the discussion above, there is clearly a need in the art fora better load bearing solution that does not suffer from the abovementioned deficiencies.

SUMMARY

According to an embodiment, a panel is configured to cover a releasemechanism of a garment and to enable mounting pouches and equipmentthereon. The panel includes a reinforcement structure; a fabric woundover the reinforcement structure, the fabric comprising a plurality ofmounting slots; and a first securing mechanism configured to secure thepanel to the release mechanism of the garment such that the panelenables mounting of pouches and equipment over an area covering therelease mechanism.

According to an embodiment, the panel includes a vertical cavity forallowing the first securing mechanism to be tunneled through the outerface of the panel.

According to an embodiment, the panel includes a plurality of securingslots on the inner face of the panel for allowing passage of the firstsecuring mechanism through the plurality of securing slots.

According to an embodiment, the panel includes a second securingmechanism for tunneling through the vertical cavity and fastening to therelease mechanism to restrain the panel from folding back.

According to an embodiment, the panel includes a loop on an edge of thepanel for allowing passage of a cord that is operatively coupled to therelease mechanism.

According to an embodiment, the reinforcement structure comprises atleast one elongated bar, and the panel includes at least onetunnel-ended strip for fastening the at least one elongated bar to thegarment, each tunnel-ended strip comprising a tunnel portion configuredto wrap around a free end of an elongated bar that is extending out ofthe panel; and at least one strip configured to fasten to the garment.

According to an embodiment, the plurality of mounting slots form a MOLLEgrid.

According to an embodiment, the plurality of mounting slots comprise oneof sewn webbings and cut slots.

According to an embodiment, the panel includes a protective insertunderneath the fabric, the protective insert being composed of one of arigid and semi-rigid material.

According to an embodiment, a garment includes a built-in panelconfigured to cover a release mechanism of a garment and to enablemounting pouches and equipment thereon. The garment comprises a maingarment portion comprising a plurality of open end and a first pluralityof mounting slots on an outer surface proximate to each of the at leastone open end; a release mechanism extending from an open end of the maingarment portion and configured to maintain the garment in a closed statewhen donned and enable quick release to an opened state when beingdoffed; and the built-in panel incorporated into and extending from themain garment portion, the built-in panel comprising a fabric comprisingn second plurality of mounting slots. The built-in panel also covers therelease mechanism such as to enable mounting of pouches and equipmentover an area covering the release mechanism.

According to an embodiment, the built-in panel further comprises areinforcement structure underneath the fabric.

According to an embodiment, the garment includes a securing mechanismthat fastens the release mechanism to the built-in panel such that thebuilt-in panel is restrained from folding back.

According to an embodiment, the garment includes a protective insertunderneath the fabric of the built-in panel, the protective insert beingcomposed of one of a rigid and semi-rigid material.

According to an embodiment, the garment includes a loop on an edge ofthe built-in panel for allowing passage of a cord that is operativelycoupled to the release mechanism.

According to an embodiment, the first plurality of mounting slots of themain garment portion end the second plurality of mounting slots of thebuilt-in panel form a continuous MOLLE grid.

According to an embodiment, the first and second pluralities of mountingslots comprise at least one of sewn webbings and cut slots.

According to an embodiment, the release mechanism comprises at least onemolded passage to allow the securing mechanism to pass through.

According to an embodiment, the garment is a cummerbund, a vest, acarrier, or a chest rig.

According to an embodiment, the first securing mechanism may be a strapor a zip tie.

BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS

So that the manner in which the above recited features of the presentdisclosure can be understood in detail, a more particular description ofthe disclosure, briefly summarized above, may be referred byembodiments, some of which are illustrated in the appended drawings. Itis to be noted, however, that the appended drawings illustrate aremerely exemplary and are therefore not to be considered limiting of itsscope, for the disclosure may lend itself other equally effectiveembodiments.

These and other features, benefits, and advantages of the presentdisclosure will become apparent by reference to the following figures,with like reference numbers referring to like structures across theviews, wherein:

FIG. 1 illustrates an armor carrier, in accordance with an embodiment ofthe prior art;

FIG. 2 illustrates an attachment panel, in accordance with an embodimentof the disclosure;

FIG. 3 illustrates a perspective view of a reinforcement structure foran attachment panel, in accordance with an embodiment of the disclosure;

FIG. 4 illustrates a perspective view of the attachment panel and asecuring mechanism, in accordance with an embodiment of the disclosure;

FIG. 5 illustrates an inner face of the attachment panel, in accordancewith an embodiment of the disclosure;

FIG. 6 illustrates the outer face of an attachment panel that is securedto a cummerbund that is fastened to an armor carrier, in accordance withan embodiment of the disclosure;

FIG. 7 illustrates a release mechanism secured to an attachment panel,in accordance with an embodiment of the disclosure;

FIG. 8 illustrates a skeletonized attachment panel, in accordance withanother embodiment of the present disclosure;

FIG. 9 illustrates the outer face of a skeletonized attachment panel, inaccordance with an embodiment of the disclosure;

FIG. 10 illustrates the inner face of the attachment panel, inaccordance with an embodiment of the disclosure:

FIG. 11 illustrates an attachment panel secured to a cummerbund, inaccordance with an embodiment of the disclosure;

FIG. 12 illustrates a tunnel-ended strip, in accordance with anembodiment of the disclosure;

FIG. 13 illustrates the release mechanism secured to a skeletonizedattachment panel, in accordance with an embodiment of the disclosure;

FIG. 14 illustrates a zip tie passing in a snakelike manner throughslots provided on the inner face of an attachment panel and through oneor more buckle webbings, in accordance with an embodiment of thedisclosure;

FIG. 15A illustrates an cuter side (i.e. face side) of an integratedcummerbund that includes a built-in panel, in accordance with anembodiment of the disclosure;

FIG. 15B illustrates an inner side (i.e. body side) of an integratedcummerbund that includes a built-in panel, in accordance with anembodiment of the disclosure;

FIG. 16 illustrates a frontal view of various shapes of thereinforcement structure, in accordance with an embodiment of thedisclosure;

FIG. 17 illustrates a side view of various curve shapes of thereinforcement structure, in accordance with an embodiment of thedisclosure;

FIG. 18 illustrates a chest rig that incorporates a panel to cover itsrelease mechanism, in accordance with an embodiment of the presentdisclosure;

FIG. 19 illustrates an attachment pouch, in accordance with anembodiment of the present disclosure;

FIG. 20 illustrates an outer face view of an alternative fasteningconfiguration for an attachment panel, in accordance with an embodimentof the present disclosure;

FIG. 21 illustrates a cross-sectional view of the alternative fasteningconfiguration, in accordance with an embodiment of the presentdisclosure; and

FIG. 22 illustrates an inner face view of an alternative fasteningconfiguration for an attachment panel, in accordance with an embodimentof the present disclosure.

FIG. 23 illustrates the inner face (i.e. body side) of an attachmentpanel with passages molded into a release mechanism, in accordance withan embodiment of the disclosure.

DETAILED DESCRIPTION

While the present disclosure is described herein by way of example usingembodiments and illustrative drawings, those skilled in the art willrecognize that the disclosure is not limited to the embodiments ofdrawing or drawings described, and are not intended to represent thescale of the various components. Further, some components that may forma part of the disclosure may not be illustrated in certain figures, forease of illustration, and such omissions do not limit the embodimentsoutlined in any way. It should be understood that the drawings anddetailed description thereto are not intended to limit the disclosure tothe particular form disclosed, but on the contrary, the disclosure is tocover all modifications, equivalents, and alternatives falling withinthe scope of the present disclosure as defined by the appended claim. Asused throughout this description, the word “may” is used in a permissivesense (i.e. meaning having the potential to), rather than the mandatorysense, (i.e. meaning must). Furthermore, the terminology and phraseologyused herein is solely used for descriptive purposes and should not beconstrued as limiting in scope, Language such as “including,”“comprising,” “having,” “containing,” or “involving,” and variationsthereof, is intended to be broad and encompass the subject matter listedthereafter, equivalents, and additional subject matter not recited, andis not intended to exclude other additives, components, integers orsteps. Likewise, the term “comprising” is considered synonymous with theterms “including” or “containing” for applicable legal purposes. Anydiscussion of documents, acts, materials, devices, articles and the likeis included in the specification solely for the purpose of providing acontext for the present disclosure. It is not suggested or representedthat any or all of these matters form part of the prior art base or werecommon general knowledge in the field relevant to the presentdisclosure.

In this disclosure, whenever a composition or an element or a group ofelements is preceded with the transitional phrase “comprising”, it isunderstood that we also contemplate the same composition, element orgroup of elements with transitional phrases “consisting of”,“consisting”, “selected from the group of consisting of, “including”, or“is” preceding the recitation of the composition, element or group ofelements and vice versa.

The present disclosure is described hereinafter by various embodimentswith reference to the accompanying drawing, wherein reference numeralsused in the accompanying drawing correspond to the like elementsthroughout the description. This disclosure may, however, be embodied inmany different forms and should not be construed as limited to theembodiment set forth herein. Rather, the embodiment is provided so thatthis disclosure will be thorough and complete and will fully convey thescope of the disclosure to those skilled in the art. In the followingdetailed description, numeric values and ranges are provided for variousaspects of the implementations described. These values and ranges are tobe treated as examples only, and are not intended to limit the scope ofthe claims. In addition, a number of materials are identified assuitable for various facets of the implementations. These materials areto be treated as exemplary and are not intended to limit the scope ofthe disclosure.

Embodiments of the present disclosure are directed to an attachment tobe fastened on to an end of a cummerbund of a body armor vest, armorcarrier, plate carrier and/or tactical/non-tactical ensemble, garment,and/or a cummerbund that incorporates the features of the attachment toaddress the loss of load carrying capacity due to space taken up byexisting closure systems and quick release systems on conventionalcummerbunds. For example, the release systems described in U.S. PatentNo. US 2014/0332572 A1 are polymer C-shaped clip and pin mechanisms oneither side of a cummerbund. The C-shaped clip (female portion) and pin(male portion), being a polymer part, does not contain any cuts and/orpockets for attaching pouches or other equipment. Further, the C-shapedclip and pin together take one or more horizontal inches of area betweenthe cummerbund (104) and carrier, or between open ends of a chest rig,that could otherwise be used to add more slots (102), extend aPALS/MOLLE grid or sew in a permanent pouch. In the embodimentsdescribed in the present disclosure, mentions of release mechanism (orrelease apparatus) refer to either the male or female portion of therelease system and/or closure system to which the panel is secured.

As such, embodiments of the present disclosure provide a solution thatallows additional pouches and/or equipment over the otherwise unusablespace created by the release apparatus areas on each side of thecummerbund by providing an attachment that can be fastened and/or fixedto an existing cummerbund or a cummerbund that incorporates the featuresof the attachment. The embodiments of the present disclosure do notimpede with the opening and/or closing (donning or doffing) of therelease apparatus (106), and also do not interfere with any quickrelease function. Furthermore, embodiments of the present disclosurecover and protect the release apparatus (106) and also help extend theservice life of the release mechanism by covering and protecting it fromimpacts from day-to-day use and the elements (e.g. direct sunlight, UVlight, wind, dirt, etc.). Furthermore, composite and/or standaloneballistic and fragmentation protective materials can be used in theattachment to add protection from ballistic, and/or fragmentationthreats. Embodiments of the present disclosure also increase protectionfrom accidental quick release opening of the release mechanism and canbe ambidextrous (in that they can be used on either side of thecummerbund).

Referring to the drawings, embodiments of the disclosure will now bedescribed in more detail. FIG. 2 illustrates an attachment panel (200),in accordance with an embodiment of the disclosure. As shown in FIG. 2,the attachment panel (200) may be fastened onto a cummerbund (104) of aplate carrier (100) and comprises a reinforcement structure (202)(illustrated in dotted lines) and a fabric (204) wound over thereinforcement structure (202). Further, the fabric (204) wound over thereinforcement structure (202) has a plurality of slots (201) capable ofreceiving one or more items. According to an embodiment the plurality ofslots may be a MOLLE (Modular Lightweight Load-carrying Equipment) grid.Although the slots (201) are illustrated as being horizontal in thefigures, this is merely for exemplary purposes. According to anembodiment, any mention of slots in the present disclosure may behorizontal and/or vertical and/or a plurality of angles. The slots (201)may be made of a plurality of geometries and are not limited to solelybeing made of a straight cut.

MOLLE is an industry term to refer to the way you attach a pouch tosomething with a compatible MOLLE grid. MOLLE grids can be cut or sewnon with webbing to allow for pouches with MOLLE compatible straps ontheir backs to be laced/connected to a body armor carrier, back pack orsimilar that has a compatible MOLLE grid. MOLLE, which stands forModular Lightweight Load-carrying Equipment was a set of equipment theArmy made. However, the term MOLLE stuck as the way to describe howpouches and other gear are attached or fastened to a grid of slots(201). MOLLE may also be referred by its technical name: PALS (PouchAttachment Ladder System). There are several styles and ways to securethe ends of the webbing for the pouch (e.g., snap fasteners or tuckingends back into the pouch with a sewn in piece of reinforced plastic orusing hook/loop materials at each end).

Items that may be stored in the pouches may include but are not limitedto one or more of ammunition items, military equipment and medicalitems. The ammunition items include items such as, but not limited to,bullets, gun magazines and hand grenades etc., that are required whilein combat. Military equipment may include equipment such as, but notlimited to, communication means, navigation means, binoculars, portablelighting units and whatever other items that can be foreseen to be ofassistance in relation to a mission. Medical items may include one ormore of, but not limited to, first aid kit and surgical tools. Hydrationitems to carry water may include, but not limited to, a canteen, bottle,reservoir, and bladder.

In accordance with an embodiment of the disclosure, the attachment panel(200) further comprises a loop (206) adapted to receive an unlockingcord of the release mechanism (106) in a manner that allows axial pullto the unlocking cord of the release mechanism (106). The loop (206) isdisposed into the fabric (204) of the attachment panel such that aportion of the loop (206) is inside the attachment panel (200) and thevisible portion extends out of the attachment panel (200). The portionthat extends out of the attachment panel (200) creates a loop (206) asshown in FIG. 2 that allows the passage of an unlocking cord (720)and/or an extension cord (715) (illustrated in FIG. 7) for the releasemechanism (106). According to an embodiment, the loop (206) may beplaced anywhere along an edge of the panel (200), such as being centeredalong the length of the edge, centered between two cut slots (102),centered between two sewn webbing slots (201), centered on a sewnwebbing strip, or simply off center. Although not shown here, theattachment panel (200) may be fastened to slots (201) (such as on aMOLLE grid) of a cummerbund (104) or chest rig (1800), as will bedescribed later, or some other tactical or non-tactical garment.

According to embodiments, other release mechanisms may also be used suchas Lindnerhof™ buckles, AustriAlpin™ Buckles, FirstSpear® Tubes™buckles, magnetic buckles, London Bridge Trading quick release buckles,Fidlock buckles, Bushido Tactical Halo Buckles™, Blue Force Gear® quickrelease buckles. Aspetto® Swift Release buckles, ITW Nexus® side releasebuckles, National Molding® quick release and side release buckles and/orsimilar buckles, fixtures, and/or hardware. For the sake of clarity andeasy understanding only, Tubes™ buckles is taken as an exemplaryfastening arrangement in the description and accompanied drawings.

According to an embodiment, one or more reinforced parts may becontained under the fabric (204) to keep the attachment panel (200) fromfolding backwards and/or provide a stable and secure mounting platformover the release apparatus (not illustrated here). FIG. 3 illustrates aperspective view (300) of a curved U-shaped reinforcement structure(202) for an attachment panel (200), in accordance with an embodiment ofthe disclosure. The reinforcement structure (202) is essentially askeleton for the panel (200), Although the reinforcement structure (202)illustrated in FIG. 2 is U-shaped and curved, according to anembodiment, the reinforcement structure (202) does not have to be in aU-shape (see FIG. 16 for alternate examples) or curved. Furthermore,according to an embodiment, the reinforcement structure in any of theconfigurations and embodiments described in the present disclosure mayalso be a flat or curved plate and take on any shape or geometry.According to an embodiment the reinforcement structure (202) may be madeof metal or be composed of some other rigid or semi-rigid material suchas plastic, carbon fiber, or composite materials. As shown in FIG. 2,the reinforcement structure (202) has at least two elongated horizontalbars (2022) running parallel to each other and a vertical bar (2024)joining the at least two elongated horizontal bars (2022). In accordancewith an embodiment of the disclosure, the at least two elongatedhorizontal bars (2022) are curved in a manner to be fit on the side ofabdomen region of the human body. According to an embodiment one or moreelongated horizontal bars (2022) may also run parallel to the twoelongated horizontal bars (2022) that are illustrated in FIG. 3.

According to an embodiment, the reinforcement structure (202) mayincorporate a plurality of geometries and angles/radius curvature and bemade of one or a combination of a plurality of materials.

FIG. 4 illustrates a perspective view (400) of the attachment panel(200) and a securing mechanism for securing the attachment panel (200)to a cummerbund, in accordance with an embodiment of the disclosure. Asshown in FIG. 4, the attachment panel (200) has an outer face (405) andan inner face (410). In accordance with an embodiment of the disclosure,the outer face (405) has a plurality of sewn webbing slots (201) capableof receiving one or more pouches. In accordance with an embodiment ofthe disclosure, the outer face (405) of the attachment panel (200)includes a plurality of strips (415) adapted to be tacked on the outerface (405) of the attachment panel (200) such that the tacking of theplurality of strips (415) creates the plurality of sewn webbing slots(201). Further, the plurality of strips (415) is tacked in a mannerperpendicular to the plurality of strips (415) as illustrated in FIG. 4.In accordance with an embodiment of the disclosure, the plurality ofstrips (415) is of nylon material which is tacked on the fabric (204) ofthe attachment panel (200). Further, in accordance with an embodiment ofthe disclosure, the tacking may be done by stitching the plurality ofstrips (415) on to the fabric (204) of the outer face (405) of theattachment panel (200). Further, the stitching may be done in a mannersuch that the tacking of the plurality of strips (41) provides aplurality of sewn webbing slots (201) as shown in FIG. 4. According toan embodiment, hook and look strips may be stitched to either or both ofthe outer facing side of the fabric (204) and the inner facing side ofeach strip (415).

According to an embodiment, the fabric (204) may have a grid or rows ofslots (like a MOLLE grid) that are cut, similar to the slots (102) inFIG. 1 and FIG. 10 such that the plurality of strips (415) are notneeded. According to an embodiment, one or more hook and loop strips maybe stitched on the fabric (204).

According to an embodiment, the fabric (204) may cover a protectiveinsert (not illustrated) made from Tegris® that can be placed inside thereinforcement structure (202) between, on top and/or below the outermostelongated horizontal bars (2022). According to an embodiment, the fabric(204) may be stitched around and/or to the protective insert such thatthe protective insert is securely held inside, on top and/or below thereinforcement structure (202). Tegris® is a thermoplastic composite thatprovides stiffness and impact resistance at a very light weight and doesnot crack under high or low temperatures. Other materials with similarattributes may be used instead of Tegris® for the rigid material, suchas HMPE (high-modulus polyethylene) plastic, LMPE plastic. Kydex®,Boltaron®, rubber, etc). In addition, composite and/or standalonematerials of Kevlar®, Dyneema® Specra® and/or similar can be usedinstead of Tegris® for added ballistic and fragmentation protection.

In accordance with an embodiment of the disclosure, one or more securingmechanisms are provided to fasten and/or fix the attachment panel (200)to the MOLLE attachment points (i.e. sewn webbing slots (201)) and/orthe release mechanism of a cummerbund. One type of securing mechanism isself-locking zip ties (420), two of which are illustrated in FIG. 4 andwill be used throughout the disclosure for exemplary purposes only.Securing mechanisms may be self-locking zip ties (to fastenpermanently), reusable/releasable zip ties, polymer latching straps,rubber latching straps, webbing, fabric, cord, elastic, hook and looptape, Velcro Onewrap®, and/or a combination of strap mechanisms such ascut fabric and/or laminate strips and/or webbing with or withouttriglide/slide and/or similar buckles and/or hardware or a pluralityreleasable and/or permanent latching mechanisms.

In accordance with an embodiment of the disclosure, the fabric (204) onthe outer face (405) of the attachment panel (200) further includes avertical cavity (610) (illustrated in FIG. 6) that is perpendicular tothe slots (201) and tunnels across the outer face (405). In accordancewith an embodiment of the disclosure, the vertical cavity (610) isprovided between the fabric (204) and the plurality of strips (415) toallow the passage of one or more zip ties (420) through the outer face(405) of the attachment panel (200) (shown in FIG. 6).

FIG. 5 illustrates the inner face (410) of the attachment panel (200),in accordance with an embodiment (500) of the disclosure. As shown inFIG. 5, the inner face (410) of the attachment panel (200) has one ormore attachment strips (505) oriented perpendicular to slots (201) andadapted to secure the attachment panel (200) with the cummerbund (104).In accordance with an embodiment of the disclosure, the one or moreattachment strips (505) are hook and loop strips stitched to the innerfacing fabric portion toward one lateral end of the attachment panel(200) such that they can be securely fastened to a cummerbund that has aplurality of strips (415) (e.g. webbing attachment points) or a MOLLEgrid. According to an embodiment, the hook and loop strips (505) attachto a counterpart hook and loop fabric that are behind a plurality ofslots (201) of the cummerbund (104). Further, the inner face (410) ofthe attachment panel (200) further includes one or more tunnels (510)adapted to guide a zip tie (420) through the one or more tunnels (510)such that the zip ties (420) traverse the inner face (410). FIG. 5illustrates an embodiment in which three tunnels (510) are arranged in astraight line to guide the passage of single self-locking zip-tie (420)vertically across the inner face (410). According to an embodiment,there may be more than one set of one or more tunnels (510) to guideadditional zip ties vertically across the inner face (410). According toan embodiment, at least a portion of the vertical cavity (610) on theouter face (405) is aligned with the one or more tunnels (510) on theinner face (410). According to an embodiment, the vertical cavity (610)and the one or more tunnels (510) are disposed such that at least onezip tie (420) is guided to fasten around the release apparatus (106).

According to an embodiment, the securing mechanism may include one ormore zip ties (420) that secure inner face (410) of the attachment panel(200) to the release mechanism (106). Further, the attachment panel(200) is fastened to the horizontal and/or vertical slots (201) of thecummerbund (104) on the other side using one or more attachment strips(505) provided on the inner face (410) of the attachment panel (200).The attachment panel (200) is fastened on two sides or stitched with thefabric to restrict movement and/or rotation of the attachment panel(200). According to an embodiment, the attachment panel (200) is held sofirmly with the cummerbund (104) that the attachment panel essentiallybecomes a part of the plate carrier (100).

In accordance with an embodiment of the disclosure, a portion of theattachment panel (200) is held above the release mechanism (106) of thecummerbund (104) in a manner such that the attachment panel (200)overlaps the release mechanism (106) of the cummerbund (104). FIG. 6illustrates the attachment panel (200) securely fastened on thecummerbund (104), in accordance with an embodiment of the disclosure. Asshown in FIG. 6, the attachment panel (200) is held firmly using zipties (420) on the release mechanism (106) and the connector strips (505)securely fastened to the slots (201) of the cummerbund (104), coveringthe release mechanism (106) (not visible) of the cummerbund (104).

Further, the manner of fastening the attachment panel (200) on thecummerbund (104) is described below:

The attachment panel (200) is fastened over the release mechanism (106)such that the inner face (410) of the attachment panel (200) is incontact with the release mechanism (106). Two zip ties (420) areinserted through the vertical cavity (610) provided on the outer face(405) of the attachment panel. FIG. 7 illustrates the release mechanism(106) fastened to the attachment panel (200), in accordance withembodiment (700) of the disclosure. In FIG. 7, the inner face sides ofthe cummerbund (104) and the attachment panel (200) are shown. As shownin FIG. 7, a first zip tie (420 b) out of two zip ties (420) is passedthrough the one or more tunnels (510). In an embodiment, the first ziptie (420 b) that is passed through the one or more tunnels (510) on theinner face (410) is also passed through one or more couple webbing (710)that couple the release mechanism (106) to the cummerbund (104), therebysecurely fastening the attachment panel (200) to the release mechanism(106). According to an embodiment, the first zip tie (420 b) may also bepassed through the vertical cavity (610) on the outer face (405) of theattachment panel (200) before being secured or locked. According to anembodiment, a second zip tie (420 a) is passed over the couple webbing(710) on the inner face (410) as shown in FIG. 7 and also passed throughthe vertical cavity (610) on the outer face (405) of the attachmentpanel (200) before being secured or locked in order to help prevent theattachment panel (200) from wiggling or folding back and forth.

According to an embodiment the release mechanism (106) may have one ormore passages molded into it through which the first zip tie (420 b)and/or the second zip tie (420 a) can be passed to securely fasten theattachment panel (200) to the release mechanism (106). The one or morepassages are similar to the molded passages (2310) shown in FIG. 23.Also, according to an embodiment, the second zip tie (420 a) may bepassed through the same or adjacent passages molded into the releasemechanism (106) and also passed through the vertical cavity (106) on theouter face of the attachment panel (200) before being secured or locked.According to another embodiment, the one or more passages may be moldedon a side of the release mechanism (106) that faces the inner face (410)of the attachment panel (200). Also, according to an embodiment, thetunnels (510) may be aligned with the one or more passages.

Although not shown, the one or more attachment strips (505), provided onthe inner face (410) of the attachment panel (200), are pushed inthrough the plurality of slots (102) (or sewn webbing slots, accordingto an embodiment) of the cummerbund (104). The one or more attachmentstrips (505) are adapted to fasten to the cummerbund (104). According toan embodiment, the inner lining of the cummerbund (104) may have loopfabric of the loop and hook mechanism (e.g., Velcro®) such that the oneor more attachment strips (505) firmly fastens with the cummerbund(104).

Although not shown, instead of using one or more attachment strips (505)made from Velcro® Onewrap, strips made from webbing, laminate fabric,fabric and/or similar with snap fasteners or tucking ends back into thecummerbund slots with a sewn in piece of reinforced plastic or usinghook/loop materials at each end may be used instead to attach theembodiment to a body armor carriers cummerbund that uses a sewn webbingMOLLE grid slots (201) and/or cut MOUE grid slots (102).

In accordance with an embodiment of the disclosure, the attachment panelfurther includes a loop (206) through which an unlocking cord of therelease mechanism (106) may be passed through. According to anembodiment, an extension cord (715) may be adapted to join with theunlocking cord (720) of the release mechanism (106) in order to increasethe length of the unlocking cord (720).

In accordance with one embodiment of the disclosure, instead ofself-locking zip ties (420) other locking means may be used such as cutfabric straps (not shown) made from the fabric (204) and/or a laminateof fabrics (not illustrated). Further, the self-locking zip ties (420)as shown in FIG. 4 are just an exemplary representation for securing theattachment panel (200) to the release mechanism (106) of the cummerbund(104). Securing mechanisms may be self-locking zip ties (to fastenpermanently), reusable/releasable zip ties, polymer latching straps,rubber latching straps webbing, fabric, cord, elastic, hook and looptape, Velcro Onewrap®, and/or a combination of strap mechanisms, such ascut fabric and/or laminate strips and/or webbing with or withouttriglide/slide and/or similar buckles and/or hardware or a pluralityreleasable and/or permanent latching mechanisms and such. Moreover, thecut fabric straps may be formed from the same material of that of theplate carrier (100) fabric, or any other strong material such as nylonor a composite laminate of materials may also be used.

In accordance with one embodiment of the disclosure, the cut fabric maybe provided with a triglide/slide buckle arrangement (not shown) and/orsimilar for tightening and loosening the cut fabric strap when in use.

FIG. 8 illustrates an attachment panel (800), in accordance with anotherembodiment of the present disclosure. As shown in FIG. 9, the attachmentpanel (800) comprises a reinforcement structure (202) and a fabric (204)wound over the reinforcement structure (202) having a plurality of slots(102) (e.g. MOUE, grid or MOLLE attachment points) capable of receivingone or more pouches or other equipment. The reinforcement structure(202) has at least two elongated horizontal bars (2022) running parallelto each other and a vertical bar (2024) joining the at least twoelongated horizontal bars (2022). As already discussed with reference toFIG. 2, the reinforcement structure (202) may take on any shape (seeFIG. 16 for alternate examples) and/or curvature. Furthermore, thereinforcement structure (202) may be made of metal or be composed ofsome other rigid or semi-rigid material such as plastic, carbon fiber,or composite materials. In accordance with an embodiment of thedisclosure, the fabric (204) is wound over a portion of thereinforcement structure (202) such that the elongated horizontal barsare uncovered as shown in FIG. 8. In accordance with an embodiment ofthe disclosure, the least two elongated horizontal bars (2022) have acurvature in a manner to fit the attachment panel (800) on the side ofabdomen region of the human body.

According to an embodiment, a protective insert (820) composed of arigid or semi-rigid material may be inserted under the fabric (204) ofthe attachment panel (800). The protective insert (820) is illustratedas being significantly less than the entire surface area of theattachment panel (800); however, according to an embodiment, theprotective insert (820) may be sized to substantially cover the entiresurface area of the attachment panel (800). According to an embodiment,the fabric (204) may be stitched around and/or to the protective insert(820) such that the protective insert (820) is securely held inside thereinforcement structure (202) and/or can be securely held on top,between, and/or below the reinforcement structure (202).

According to an embodiment, the protective insert (820) providesstiffness and impact resistance at a very light weight. Such protectiveinsert (820) may be made of thermoplastic composite material such asTegris®. Tegris® is a thermoplastic composite that provides stiffnessand impact resistance at a very light weight and does not crack underhigh or low temperatures. Other materials with similar attributes may beused instead of Tegris® for the rigid material, such as HDPE(high-modulus polyethylene) Plastic, LMPE plastic, Kydex®, Boltaron®,rubber, etc). In addition, composite and/or standalone materials ofKevlar®, Dyneema®, Specra® and/or similar can be used instead of Tegrisfor added ballistic and fragmentation protection. According to anembodiment, the piece of thermoplastic composite material may be pliableor have a similar curvature as provided to the reinforcement structure(202) of the attachment panel (200). According to an embodiment,curvature to the piece of thermoplastic composite material and/or aplurality of other ballistic/fragmentation protective andnon-ballistic/fragmentation protective materials that may be used may beprovided by heating the piece of material using suitable heating andmolding means. In accordance with an embodiment of the disclosure, thesuitable heating means heated molding tools and/or similar method thatcan form the material to a plurality of shapes and curvatures.

Although not illustrated, according to an embodiment, any panel systemor configuration described in the present disclosure may include aprotective insert under the fabric of the panel, whether attached orbuilt-in that can be permanently built in or removable.

In accordance with an embodiment of the disclosure, the attachment panel(800) further comprises a loop (206) adapted to receive an unlockingcord (720) and/or an extension cord (715) of the release mechanism (106)in a manner to facilitate axial pull of the unlocking cord (720) of therelease mechanism (106). Similar to the loop (206) of the attachmentpanel (200), the loop (206) is fixed into the fabric (204) of theattachment panel such that a portion of the loop (206) is inside theattachment panel (800) and other portion is outside the attachment panel(800).

FIG. 9 illustrates the outer face (805) of the attachment panel (800),in accordance with an embodiment of the disclosure. The outer face has aplurality of slots (102) (e.g. MOLLE grid or MOLLE attachment points).In accordance with an embodiment of the disclosure, the plurality ofslots (102) may be cut slots and/or vertical and/or of a plurality ofangles. Though not illustrated, the slots (102) may be provided bystitching a plurality of strips similar to the strips (415) of FIG. 4.

Though not illustrated, according to an embodiment the slots can bevertical and/or a plurality of angles (102) may be provided by stitchinga plurality of strips similar to the strips (41) of FIG. 4. According toan embodiment, the vertical gap interval between slots (102) of theattachment panel (800) may be short in order to promote alignment withslots (102) provided by various manufacturers of the cummerbund (104).For example, the vertical gap interval between slots (102) may be a halfinch.

In accordance with an embodiment of the disclosure, the fabric (204) onthe outer face (805) of the attachment panel (800) further includes atleast one vertical cavity similar to the vertical cavity (610) of theattachment panel (200) that runs perpendicular to the slots (102) thattunnels underneath and across the vertical length of fabric (204). Inaccordance with an embodiment of the disclosure, the vertical cavity isprovided such that the cavity allows the passage of zip ties (420) underthe outer face (405) of the attachment panel (800). An example isillustrated in FIG. 11.

FIG. 10 illustrates an inner face (810) of the attachment panel (800),in accordance with an embodiment of the disclosure. According to anembodiment, the inner face (810) is also provided with one or more slots(102) that allow passage of zip ties (420) or similar to snake throughthe inner face (810) of the attachment panel (800) and couple webbing ofcummerbund (104) and/or passages molded into the release mechanism (106)similar to the molded passages (2310) shown in FIG. 23. According to anembodiment, the inner face (810) may have one or more tunnels similar totunnels (510) of FIG. 5 to allow passage of zip ties (420) or similarsecuring mechanisms already described.

In accordance with an embodiment of the disclosure, the attachment panel(800) further includes a securing mechanism for fixing the attachmentpanel (800) on the armor carrier (100). The securing mechanism mayinclude a plurality of zip ties (420) that secures the attachment panel(800) to the release mechanism (106). In accordance with an embodimentof the disclosure, instead of zip ties (420), polymer latching straps,rubber latching straps webbing, fabric, cord, elastic, hook and looptape, Velcro Onewrap®, an for a combination of strap mechanisms, such ascut fabric and/or laminate strips and/or webbing with or withouttriglide/slide and/or similar buckles and/or hardware or a pluralityreleasable and/or permanent latching mechanisms and such may also beused.

FIG. 11 illustrates an attachment panel (800) secured to a cummerbund(104), in accordance with an embodiment of the disclosure. According toan embodiment, at least one tunnel-ended strip (1210) may be providedfor fastening the free ends of the elongated horizontal bars (2022) tothe cummerbund (104) via slots (102) of the cummerbund (104). FIG. 12illustrates a tunnel-ended strip (1210) according to an embodiment ofthe present disclosure. Each tunnel-ended strip (1210) comprises atunnel portion (1250) that wraps around a free end of an elongatedhorizontal bar (2022) and at least one strip (1260) that fastens to thecummerbund (104). The embodiment illustrated in FIG. 11 has one tunnelportion (1250) and two strips (1260); however, in alternate embodiments,tunnel-ended strips may have a shorter or longer tunnel portion and/orone strip or more than two strips. For example, each of the tunnel-endedstrips (1910) of FIG. 19 has a shorter tunnel portion and a singlestrip. The tunnel portion (1250) may be stitched to slide on or becreated during fastening by wrapping at least one strip around theelongated horizontal bar (2022). At least one strip (1260) may have hookand/or loop fabric on each side to fasten to the counterpart fabric onthe inner side of the fabric of the cummerbund (104) and/or be made fromwebbing, laminate fabric, fabric and/or similar with snap fasteners ortucking ends back into the cummerbund (104) via slots (102) with a sewnin piece of reinforced plastic or using hook/loop materials at each endmay be used to attach to cut slots (102) and/or sewn webbing MOLLE slots(102). According to an embodiment, the at least one strip (1260) may bea Velcro® Onewrap® (or similar) strip to secure the elongated horizontalbars (2022) of the attachment panel (800) with the cummerbund's MOLLEgrid and to keep the elongated horizontal bars (2022) from rolling overthe cummerbund (104) and digging into the wearer's torso/skin/side ofthe body. According to another embodiment, the elongated horizontal bars(2022) may be secured to the cummerbund (104) by straps and/or a sewntunnel sewn to straps (more secure then using single nylon strips). Thiswould help prevent the elongated horizontal bars (2022) from sliding offthe cummerbund (104) and rubbing against the wearer in an uncomfortablemanner. As such, the attachment panel (800) would be secured by bothtunnel-ended strips (1210) and the zip ties (420) to restrict movementand/or rotation of the attachment panel (800). The goal is to have theattachment panel (800) be held so firmly with the cummerbund (104) thatthe attachment panel (800) becomes a part of the cummerbund (104). Thetunnel-ended strips (1210) may vary in geometry and construction and canbe used to secure different geometries and curvatures of a reinforcementstructure (202) of the attachment panel (800) firmly to a cummerbund(104) and garment.

in accordance with an embodiment of the disclosure, attachment panel(800) is held above the release mechanism (106) of the cummerbund (104)in a manner that the attachment panel (800) overlaps the releasemechanism (106) of the cummerbund (104). FIG. 12 illustrates theattachment panel (800) fastened on to the cummerbund (104) which isattached/connected to the armor carrier (100), in accordance with anembodiment of the disclosure. As shown in FIG. 11, the attachment panel(800) is held nearly flush with the cummerbund (104) and armor carrier(100), with the extension cord 720 extending from the unlocking cord(720) which extends from the release mechanism (106) of the cummerbund(104) out through the loop (206).

According to an embodiment, the slots (102) on the attachment panel(800) may be horizontally aligned with the slots of the cummerbund,chest rig or some other garment to which the attachment panel isfastened. Furthermore, although in FIG. 11 the horizontal spacing ofslots (102) are not uniform all the way across from the cummerbund (104)to the attachment panel (800) in FIG. 20, this is merely one embodimentfor illustrative purposes. According to an embodiment, the slots (102)may be evenly spaced across the cummerbund (104) (or chest rig or someother garment) and attachment panel (800) such that the transition fromthe cummerbund (104) (or chest rig or some other garment) to theattachment panel (800) mimics a continuous MOLLE grid.

Further, the manner of fixing the attachment panel (800) on thecummerbund (104) is described below:

The attachment panel (800) is kept on the release mechanism (106) suchthat the inner face (810) of the attachment panel (800) is in contactwith the release mechanism (106). Two zip ties (420 a and 420 b) areinserted through the cavity provided on the outer face (805) of theattachment panel (800) (illustrated in FIG. 11). FIG. 13 illustrates therelease mechanism (106) fastened to the attachment panel (800) abuttingthe inner face (810), in accordance with an embodiment of thedisclosure. As shown in FIG. 14, a first zip tie (420 b) out of two zipties (420) is passed in a snakelike manner through the one or more slots(102) provided on the inner face (810) of the attachment panel (800) andthrough one or more couple webbing (710) that couple the releasemechanism (106) to the cummerbund (104), thereby securely fastening theattachment panel (800) to the release mechanism (106). According to anembodiment, the first zip tie (420 b) may also be passed through thevertical cavity (similar to vertical cavity (610) of attachment panel(200)) on the outer face (805) of the attachment panel (800) beforebeing tied. According to an embodiment, a second zip tie (420 a) ispassed over the couple webbing (710) as shown in FIG. 13 and also passedthrough the vertical cavity on the outer face (805) of the attachmentpanel (800) before being fastened in order to help prevent theattachment panel (200) from wiggling, flipping, or folding back andforth. According to an embodiment, one or both zip ties (420 a) and (420b) may be passed through one or more slots (102) on the outer face ofthe attachment panel (800) if there is no vertical cavity that runsunderneath.

According to an embodiment the release mechanism (106) may have one ormore passages molded into it through which the first zip tie (420 b)and/or the second zip tie (420 a) can be passed to securely fasten theattachment panel (800) to the release mechanism (106). The one or morepassages are similar to the molded passages (2310) shown in FIG. 23.Also, according to an embodiment, the second zip tie (420 a) may bepassed through the same or adjacent passages molded into the releasemechanism (106) and also passed through a vertical cavity (similar tovertical cavity (610) of attachment panel (200)) on the outer face ofthe attachment panel (800) before being secured or locked.

As illustrated in FIG. 14, according to an embodiment, the inner face(810) of the attachment panel (800) is provided with one or more slots(812) that allow passage of the first zip tie (420 b) to snake throughthe inner face (810) of the attachment panel (800) and couple webbing(710) which function as knuckles of a hinge that rotatably connect theattachment panel (900) to the cummerbund (104), with the zip tie (420 b)acting as the pin to the hinge. According to an embodiment, the innerface (810) may have one or more tunnels similar to slots (812) of FIG.10 or tunnels (510) of FIG. 5 to avow passage of zip ties (420).

According to another embodiment, the one or more passages may be moldedinto the side of the release mechanism (106) that faces the inner face(410) of the attachment pan& (800). Also, according to an embodiment,the one or more slots (812) may be aligned with the one or more passagessuch that the first zip tie (420 b) can snake through the inner face(810) of the attachment panel (800) and the molded passages that arefacing the inner face (805) of the attachment panel (800).Alternatively, if the molded passages are facing away from the innerface (805) (similar to molded passages (2310) of FIG. 23), the first ziptie (420 b) and/or the second zip tie (420 a) may pass through the oneor more slots (812) on the inner face (805) of the attachment panel(800) and wrap around release mechanism (106) and through the moldedpassages facing away from the inner face (805) before being securelyfastened.

As Illustrated in FIG. 11, at least one tunnel-ended strip (1210) may beprovided for fastening the free ends of the elongated horizontal bars(2022) to the cummerbund (104) via slots (102) of the cummerbund (104).Each tunnel-ended strip (1210) comprises a tunnel portion that wrapsaround a free end of an elongated horizontal bar (2022) and a stripportion that fastens to the cummerbund (104). The tunnel portion may bestitched to slide on or be created during fastening by wrapping thetunnel ended strip (1210) around the elongated horizontal bar (2022).The strip portion may have hook and/or loop fabric on each side tofasten to the counterpart fabric on the inner side of the fabric of thecummerbund (104). According to an embodiment, the strip portion may be aVelcro® Onewrap® (or similar) strip to secure the elongated horizontalbars (2022) of the attachment panel (800) with the cummerbund's cut orsewn webbing MOLLE grid.

Through not illustrated, according to an embodiment, the strip portionto secure the elongated horizontal bars (2022) of the attachment panel(800) with the cummerbund's (104) cut slots (102) or sewn webbing MOLLEgrid slots (102) may be a laminate fabric, fabric and/or similar withsnap fasteners or tucking ends back into the cummerbund (104) via slots(102) with a sewn in piece of reinforced plastic or using hook/loopmaterials at each end may be used to attach to cut slots (102) and/orsewn webbing MOLLE slots (102).

In accordance with an embodiment of the disclosure, the attachment panel(800) an extension cord (715) may be joined with the unlocking cord(720) of the release mechanism (106) in order to increase the length ofthe unlocking cord (720) of the release mechanism (106).

According to an embodiment, the vertical gap interval between slots(102) of the attachment panel (800) may be shorter in order to promotealignment with slots (102) provided by various manufacturers of thecummerbund (104). As shown in FIG. 11, the vertical gap interval betweenslots in the attachment panel (800) is half the vertical gap intervalbetween the slots on the cummerbund (104) and the armor carrier (100).

FIGS. 15a and 15b illustrate the outer face of an integrated cummerbund(1500) that includes a built-in panel that covers the release mechanism(106), in accordance with an embodiment of the disclosure. FIG. 15aillustrates the outer side (i.e. face side) (1540) while FIG. 15billustrates the inner side (i.e. body side) (1530). It is noted that inthe embodiment illustrated in FIGS. 15a and 15b , the cummerbund (1500)is an elongated structure that covers one side of a torso. That is,another cummerbund is needed to cover the opposite side of the torso.

As shown in FIGS. 15a and 15b , the integrated cummerbund (1500) has afirst end area (1510) and a second end area (1520). The first end area(1510) may have a hook and loop fabric and/or other securing mechanism(or any other known means) to attach/fasten the first end area (1510) ofthe integrated cummerbund to a back portion of a body vest garment. Asshown in FIG. 15a , the second end (1520) includes a built-in panel(1580) that appears seamless from the rest of the integrated cummerbund(1500). According to an embodiment, the built-in panel (1580) may beincorporated into or otherwise permanently attached during manufactureof the integrated cummerbund (1500). According to an embodiment, thebuilt-in panel (1580) is sewn in during manufacture of the integratedcummerbund (1500) such that the elongated horizontal bars (2022) of areinforcement structure (202) (not shown) are held in place underneaththe fabric on the outer side. This is in contrast to FIG. 11, in whichthe elongated horizontal bars (2022) are exposed over the outer side ofthe cummerbund (104). Although not shown, each elongated horizontal bar(2022) may be further secured in place using any conventional techniqueor those previously disclosed. According to an alterative embodiment,the built-in panel (1580) may or may not have elongated horizontal bars(2022) or a reinforcement structure (202). The reinforcement structure(202) may be a plurality of geometries and curvatures and made from aplurality of materials. A protective insert (820) composed of a rigid orsemi-rigid material may also be included in the embodiment made frommaterials those previously disclosed. The protective insert (820) may beremovable.

As shown in FIG. 15B, the release mechanism (106) is covered by thebuilt-in panel (1580) at the second end area (1520) of the integratedcummerbund (1500). Similar to FIGS. 7 and 13, the release mechanism(106) is coupled to the integrated cummerbund by the couple webbing(710). According to an embodiment, the release mechanism (106) may besecurely fastened to the built-in panel (1580) using zip ties 420 a and420 b as previously disclosed. Alternatively, the release mechanism(106) may be securely fastened to the built-in panel using one zip tie420 a (or other securing mechanism) to keep the built-in panel (1580)from folding back during use. According to an embodiment, the couplewebbing (710) may be sewn to the inner face of the built-in panel(1580). Also, according to an embodiment, one or more passages (2310)may be molded into the release mechanism (106) as discussed with regardto panel (200) and panel (800) to allow one or more zip ties (420) (i.e.securing mechanism) to pass through.

The present disclosure provides a number of advantages. First, therelease mechanism (106) is being covered and protected by the fasteningor fixing of attachment panel (200) on the cummerbund (104) orincorporating its features to a new integrated cummerbund. Theattachment panel (200) may be used on different types of releasemechanisms as discussed earlier. Further, the fixation or fastening ofattachment panel (200) to the release mechanism (106) allows mounting ofand/or sewing on additional pouches that would otherwise not bepossible.

Moreover, the reinforcement structure (202) provides required stiffnessfor holding the attachment panel (200). Further, the material of thereinforcement structure (202) may be one of, but not limited to, metal,plastic, fiber glass, composite, ballistic protective materials andfragmentation protective materials, and combination thereof. Also, shapeof the reinforcement structure (202) shown in accompanied drawings isjust an exemplary illustration. Further, the reinforcement structure(202) may include varied shaped such as, but not limited to, shape ofthe characters X, C, E and L with a plurality of curvatures and/or flat.FIG. 16 illustrates different frontal views of the reinforcementstructure (202), in accordance with an embodiment of the disclosure.Also. FIG. 16 illustrates different cross-sectional views of thereinforcement structure (202), in accordance with an embodiment of thedisclosure. A skilled person in the art would recognize that thereinforcement structure (202) may have other shapes as mentioned aboveand/or illustrated in FIG. 16 and FIG. 17.

FIG. 18 illustrates a chest rig that incorporates a panel to cover itsrelease mechanism according to an embodiment of the present disclosure.According to an embodiment, a panel (1810), similar to attachment panel(200) or attachment panel (800) may be incorporated (or otherwiseincorporated) into a chest rig that utilizes a release mechanism thatcreates a gap lacking MOLLS attachment points. According to anembodiment, the panel (1810) may or may not have a reinforcementstructure (202). According to an embodiment, the panel (1810) isfastened to a chest rig (1800) in a same or similar manner as thoseembodiments described with respect to attachment panel (200), (800) and(2000). Alternatively, the panel (1810) may be built in to the chest rig(1800) in a same or similar manner as those embodiments described withrespect to built-in panel (1580). Here, although not illustrated, thechest rig has the release mechanism and its counterpart—i.e. one maleportion and one female portion (e.g. release mechanism (106) covered bythe panel (1810) in the illustrated embodiment)—such that when theextension cord (715) is pulled, the release mechanism (106) (i.e. femaleportion of the release system) disengages from the male portion, therebyopening the chest rig for doffing.

FIG. 19 illustrates an attachment pouch, in accordance with anembodiment of the present disclosure. According to an embodiment, theattachment pouch (1900) may be fastened to a cummerbund (104) or chestrig (1800) in a same or similar manner as those embodiments describedwith respect to attachment panel (200), (800) and (2000). Alternatively,the attachment pouch (1900) may be built in to a cummerbund (104) orchest rig (1800) in a same or similar manner as those embodimentsdescribed with respect to built-in panel (1580). According to theembodiment disclosed in FIG. 19, two tunnel-ended strips (1910) wraparound the top bar of the elongated bars (2022) to help hold theattachment pouch (1900) in place by fastening to a cummerbund, chest rigsome or other garment through a cut slot 102 or sewn webbing slot 201and the like as already described with regard to FIG. 11. According toan alternate embodiment, one or more different tunnel-ended strips (suchas, tunnel-ended strip (1210)) may be used instead. Also, the bottom barof the elongated bars (2022) remains bare; however, in an alternateembodiment, one or more tunnel-ended strips may be used to wrap aroundthe bottom bar. Also, according to an embodiment, both elongated bars(2022) may be held in place by a tunnel-ended strip, or the top bar maybe bare while the bottom bar is help in place by a tunnel-ended strip.The embodiment may use a reinforcement structure (202) that does notinclude elongated bars (2022) and can be a plurality of geometries andcurvatures. The embodiment may also include a protective insert (820)that is permanently built in or is removable.

FIG. 20 illustrates an outer face view of an alternative fasteningconfiguration for an attachment panel, in accordance with an embodimentof the present disclosure. According to an embodiment, an attachmentpanel (2000) may have one or more securing mechanisms for securing theattachment panel (2000) to a cummerbund (104). According to anembodiment, the attachment panel (2000) may or may riot have, areinforcement structure (202) or a protective insert (820). Theattachment panel (2000) may or may not have a loop (206) adapted toreceive an unlocking cord of the release mechanism (106) in a mannerthat allows axial pull to the unlocking cord of the release mechanism(106). Although the release mechanism (106) appears to extend past theedge of the attachment panel (2000) and be exposed in FIG. 20, this ismerely for illustrative purposes. According to an embodiment, therelease mechanism (108) may be fully covered by the attachment panel(2000) similar to the embodiment illustrated in FIG. 11. FIG. 21illustrates a cross-sectional view of the alternative fasteningconfiguration, in accordance with an embodiment of the presentdisclosure. In the embodiment illustrated in FIG. 21, the securingmechanisms are strip (2010) and strip (2020). According to anembodiment, one end for each of strips (2010) and (2020) may be sewn orotherwise permanently fixed to the inner face of the attachment panel(2000). The free end of strip (2010) may wrap around the releasemechanism (106) (as shown in FIG. 22) to keep the attachment panel(2000) from folding or flipping back and forth while in use. With regardto strip 2020, the free end may pass through webbing attachmentpoints/slots (102) or a MOLLE grid similar to attachment strips (505) ofFIG. 5 to be secured to the cummerbund (104). According to anembodiment, the slots (102) on the attachment panel (2000) may behorizontally aligned with the slots (102) of the cummerbund, chest rigor some other garment to which the attachment panel is fastened.Furthermore, although the horizontal spacing of slots (102) are notuniform all the way across from the cummerbund (104) to the attachmentpanel (2000) in FIG. 20, this is merely one embodiment for illustrativepurposes. According to an embodiment, the slots (102) may be evenlyspaced across the cummerbund (104) (or chest rig or some other garment)and attachment panel (2000) such that the transition from the cummerbund(104) (or chest rig or some other garment) to the attachment panel(2000) mimics a continuous MOLLS grid.

According to an embodiment, the attachment panel (2000) may be attachedto a cummerbund (104) of FIG. 5 without permanently fixed or sewn strips(not illustrated) and use of securing mechanisms such as self-lockingzip ties (to fasten permanently). reusable/releasable zip ties, polymerlatching straps, rubber latching straps webbing, fabric, cord, elastic,hook and loop tape, Velcro Onewrap®, and/or a combination of strapmechanisms, such as cut fabric and/or laminate strips and/or webbingwith or without triglide/slide and/or similar buckles and/or hardware ora plurality releasable and/or permanent latching mechanisms and such.

According to an embodiment, the attachment panel (2000) may have tunnelssimilar to tunnels (510) of FIG. 5 or cut slots similar to slots (812)that allow strips or zip ties to pass through in a snakelike manner.

FIG. 23, illustrates the inner face side (i.e. body side) (1530) withpassages (2310) molded into a release mechanism (106), according to anembodiment of the present disclosure. The passages (2310) can be locatedon any of the surfaces of the release mechanism (106), internally orexternally, and take on any of a plurality of geometries, lengths andcross-sectional shapes/areas. There could be multiple passages (2310) toallow for one or more securing mechanisms to be passed through. Themolded passages may have a plurality of securing mechanisms made from aplurality of materials, geometries and sizes as previously disclosedpassed through them in a plurality of configurations (e.g. snake-likemanner and/or straight pass through). According to an embodiment, use ofthe passages (2310) molded to into a release mechanism (106) may allowthe use of a single securing mechanism (420) to both fasten a panel tothe release mechanism (106) and also help prevent the panel from foldingback. One or more passages (2310) may be molded into a release mechanism(106). According to an embodiment, the passages (2310) allow for thesecuring mechanisms (420 a and 420 b) to fasten the previously disclosedembodiments of the attachment panel (200), (500), (800), (2000),integrated cummerbund (1500), attachment pouch (1900), and chest rig(1500) panel (1810) securely and help prevent them from wiggling,flipping, or folding back and forth, folding backwards and/or provide astable and secure mounting platform over the release apparatus (106)through the methods previously disclosed for zip tie (420) securingmechanisms.

Various modifications to these embodiments are apparent to those skilledin the art from the description and the accompanying drawings. Theprinciples associated with the various embodiments described herein maybe applied to other embodiments. Therefore, the description is notintended to be limited to the embodiments shown along with theaccompanying drawings but is to be providing broadest scope ofconsistent with the principles and the novel and inventive featuresdisclosed or suggested herein. Accordingly, the disclosure isanticipated to hold on to all other such alternatives, modifications,and variations that fall within the scope of the present disclosure andappended claim.

1. A panel configured to cover a release mechanism of a garment and toenable mounting pouches and equipment thereon, the panel comprising: areinforcement structure; a fabric wound over the reinforcementstructure, the fabric comprising a plurality of mounting slots; and afirst securing mechanism configured to secure the panel to mountingslots on the garment such that the panel extends from an open end of thegarment to cover the release mechanism of the garment enables mountingof pouches and equipment over an area covering, the release mechanism.